孟子捷西安交通大学教师主页管理系统 Expanding melt-based electrohydrodynamic printing of highly-ordered microfibrous architectures to cm-height via in situ charge neutralization Home

Papers

Expanding melt-based electrohydrodynamic printing of highly-ordered microfibrous architectures to cm-height via in situ charge neutralization

Release Time:2025-04-30 Hits:

Date:

2025-04-30

Title of Paper:

Expanding melt-based electrohydrodynamic printing of highly-ordered microfibrous architectures to cm-height via in situ charge neutralization

Journal:

Advanced Materials Technologies

Summary:

利用电荷中和+动态电压调控技术突破了静电打印纤维有序沉积及支架高度受限于电荷累积的问题，打印支架最大高度目前世界第一

Co-author:

He Jiankang, Hao Guanzhe, Meng Zijie, et al.

Volume:

7（7）

Page Number:

2101197

Translation or Not:

Date of Publication:

2021-12-16